A comparison of the welfare of free-ranging native pony herds on common land with those used for conservation grazing in the UK

Free-ranging native Dartmoor and Exmoor ponies have not only held strong cultural and environmental significance for thousands of years within their respective national parks, but their environmental benefits and naturally selected characteristics have also been acknowledged and harnessed for conservation grazing and rewilding programmes. Despite a wealth of literature regarding the welfare of sports, leisure and working horses, there is little information concerning the welfare of free-ranging and extensively grazing ponies. The present study compared the welfare of native Exmoor and Dartmoor ponies grazing on the moors in their respective national parks (n = 47) with those that have been translocated to other areas of the UK for use in conservation grazing and rewilding programmes (n = 29) using a specifically designed observational welfare assessment protocol for free-ranging ponies. The results showed a significant difference between common land and conservation grazing ponies in the scores for Body Condition Score, Water Quality and Availability, Environmental Hazards, Human Disturbance, Skin and Coat Condition and the Human Approach Test. Despite no evidence of significant welfare compromise being identified, this study emphasises the importance of year-round monitoring of welfare and the feasibility of the observational welfare protocol to be used by pony keepers and grazing managers in the future.


Introduction
The majority of owned domesticated horses (Equus caballus) in the UK are kept within an intensive husbandry and management system, and only a minority are managed extensively and considered free ranging (Longland 2013;Gonçalves Abrantes 2021).Dartmoor (945 km 2 ) and Exmoor (693 km 2 ) National Parks in southern England have been populated with free-ranging, semi-feral ponies for thousands of years (Green 2013), and today herds of native Dartmoor and Exmoor ponies are grazed on the common land within the respective national parks.Extensively grazing herds are free to forage, browse and move freely with conspecifics (Christensen et al. 2002;King et al. 2013;Viksten 2016).Being able to exhibit these natural behaviours means a reduced incidence of health issues (Yngvesson et al. 2019), possibly denoting a more positive welfare state compared to stabled horses whose movement is restricted and access to both forage and conspecifics may be restricted (Hartmann et al. 2012).This has potentially contributed to the lack of research into the welfare of free-ranging horses, even though this environment does not eliminate the potential for welfare issues to arise (Fraser 2008(Fraser , 2009)).
The genomes of native pony breeds have been shaped by natural selection, meaning that they possess adaptations that are now absent in domesticated breeds (Fraser et al. 2019).Native ponies are particularly well-suited to extensive grazing as their hardy nature means they are able to tolerate environmental conditions that other domesticated equines would not be well adapted to (Hodder et al. 2005).However, both the Dartmoor and Exmoor breeds are considered priority equine breeds (Rare Breeds Survival Trust 2022) and UK Native Breeds at Risk.Appropriate management is required to carefully increase the number of registered ponies whilst maintaining genetic diversity (Green 2013).Furthermore, their longstanding presence has created a strong cultural heritage, and many stakeholders believe declining numbers are impacting biodiversity within their grazing areas (Udall et al. 2023).Lowintensity grazing is beneficial across the trophic levels in upland areas in the UK (Evans et al. 2015), where light grazing of swards can increase overall foliage growth (Bott et al. 2013), which increases the number of ecological niches, as well as the habitat quality (Kruess & Tscharntke 2002;Wallis de Vries et al. 2007;Bussan 2022).These benefits have been recognised as a conservation tool to reduce the presence of invasive species and promote native and/or high-value species (Fraser et al. 2019).Therefore free-ranging native ponies provide an attractive choice for use as conservation grazers (Grazing Animals Project 2008) and in rewilding programmes throughout the UK and Europe (Linnartz & Meissner 2014).
UK equines are protected under the Animal Welfare Act (2006) and the additional Code of Practice for the Welfare of Horses, Ponies, Donkeys and Their Hybrids (DEFRA 2017), but this legislation is problematic to apply to free-ranging ponies.Traditionally, ponies are gathered off the moors and onto farms in the autumn, referred to as 'drifts', each pony is checked, with some selectively removed and sold in order to manage the population size (Van de Weerd et al. 2012).Despite being in place to assess welfare, 'drifts' have been highlighted as a specific welfare issue for free-ranging ponies, alongside overbreeding and lack of supplementary food in winter, as gatherings are considered to be stressful (Horseman et al. 2016), likely due to infrequent human handling (Jezierski et al. 1999).There is also a responsibility to ensure the welfare of ponies acquired for use in conservation grazing and rewilding schemes.Lack of knowledge and poor advice-seeking behaviour have been identified as the root causes of equine welfare issues in the UK (Horseman et al. 2016) and there are anecdotal concerns that those responsible for conservation grazing ponies are unfamiliar with the species or lack prior experience.Although marketed at these programmes for their hardiness and ability to adapt (Grazing Animals Project 2001); ponies are grazing in an unfamiliar environment and with altered social group dynamics which is likely to increase stress levels (van Dierendonck 2006), and so has the potential to negatively impact their welfare.A lack of awareness could compromise individual welfare and potentially that of the wider equine community, for example if there was an unrecognised infectious disease outbreak.
Continued criticism of the management of free-ranging ponies by both welfare organisations and the public (Harley et al. 2021;Udall et al. 2023), means that necessary action must be taken to adapt present management systems to secure the future of these ponies (Green 2013).Whilst population-level management (for a discussion, see Green 2013;Petrie-Ritchie 2015), is important to maximise herd-level welfare; it is also imperative to monitor welfare at an individual level to identify issues and potential risk factors to allow for early intervention and safeguarding of pony welfare (Blokhuis et al. 2010).Welfare assessment protocols for sport, leisure and working horses, of which there are several (e.g.AWIN 2015; Dalla Costa et al. 2016), often refer to freeranging horses' physical and social environments as natural and welfare-friendly conditions (Waran 1997).This has impacted the design and utilisation of suitable welfare assessment protocols for free-ranging ponies (Harley et al. 2021).Despite the recent development of a few specific protocols (e.g.Harvey et al. 2020;Harley et al. 2021), free-ranging native pony welfare in the UK is underresearched, with no known published studies attempting to report upon individual welfare or make comparisons between populations.This study aims to compare the welfare of free-ranging native pony herds grazing on the common land within Dartmoor and Exmoor National Parks, with herds that have been translocated to other areas for the specific purpose of conservation grazing or rewilding, using an adapted version of the welfare assessment designed by Harley et al. (2021).

Ethical approval
This study was granted ethical approval by the University of Bristol's Animal Welfare and Ethical Review Body on 2nd May 2023; unique reference number UIN/23/017.

Study sites and populations
Six study sites, accessible to the public and with a population of freeranging Dartmoor or Exmoor ponies, were selected (Table 1).These sites hosted registered Exmoor ponies or heritage/registered Dartmoor ponies.Ponies assessed were chosen opportunistically from the free-ranging population during the first visit to each location.

Data collection
All individual welfare assessments were carried out between 0800 and 1700h from 30th May to 24th July 2023 by the first author (SM) who has extensive background knowledge of equine care and management.Weather conditions, assessment time and necessary assessment data were recorded.A minimum of 3 m was always maintained between the pony and assessor and binoculars were used if necessary.Photographic and written descriptions allowed individual pony identification in subsequent visits, including details of GPS location, sex, colour, markings, and branding/other mutilations (if present).
The welfare assessment protocol comprises 15 animal-and resource-based indicators (fully detailed in Table 2).Indicators are  Wemelsfelder et al. (2000Wemelsfelder et al. ( , 2001) ) was also carried out.The protocol conducted for the QBA required the assessor to spend two No access to shelter or shade and is not shivering or sweating.
Access to shelter and/or shade and is not shivering or sweating.

Mobility (AB)
Immobile or severely compromised mobility, where the pony cannot keep up with the herd.
Walking with abnormality, uneven weight-bearing but remains with the herd.
No signs of abnormality, evenly bearing weight on all limbs whilst standing and walking. -

Mane and Tail Condition (AB) -
Hair is missing or broken in the mane or tail.
Normal tail and mane with no hair loss. -

Skin and Coat Condition (AB) (excluding mane and tail)
-Coat is patchy or uneven, skin may be visible (alopecia) in places.
Coat appears healthy and in good condition.
-Ocular Discharge (AB) Discharge and partial or full closure, with or without swelling.
Discharge with eye open (mucus in the eye and discharge down cheek).
Normal eye with no discharge.
- Wound (< 7 cm), appears to be healing or visible swelling to a skin area < 7 cm with or without hair loss.
No wounds or swollen areas of skin.
Moves away when assessor is < 9 m away.
Does not move away from assessor (must stop at 3 m).

Horse Grimace Scale (AB) (Only applied if zero is scored for any indicator)
HGS score 8-12 HGS score 4-7 HGS score 0-3 Animal Welfare to three minutes familiarising themselves with the pony's demeanour (expressive behaviour) followed by a 10 minute focal observation (Altmann 1974).Scores were entered after the observation period concluded.Descriptors were selected to represent the expressive qualities of a free-ranging pony and chosen from current equine studies applying QBA to evaluate horses' behavioural responsiveness (AWIN 2015;Hintze et al. 2017;Czycholl et al. 2019).QBA descriptors were initially trialled on 13 individual Carneddau Mountain ponies by one of the authors (JJH), and a specialist equine surgeon.The initial trial resulted in a moderate degree of reliability between assessors for the descriptor 'friendly', all other descriptors were good or very good.Prior to inclusion in our study, the definition and description were refined for better context, i.e. 'friendly' was changed to Friendly (Sociable) and the definition was expanded to ensure the situation of the behaviour was limited to the pony's interaction with other pony(s) rather than the assessor (Table 4).All locations were revisited within 21 days of the first assessment and the welfare assessment was repeated on individuals that could be successfully re-identified (n = 41) to test for assessor reliability.Animal Welfare

Statistical analysis
All analyses were performed in the R-4.2.2 (R-Studio Team 2021).Datasets were checked for violations of the assumptions of normality (normality of residuals and homogeneity of variance), data transformations were attempted, and a non-parametric test was used if unsuccessful.The threshold for significance in all statistical tests was P < 0.05.

Comparing common land and conservation grazing ponies
To investigate if there was a statistically significant difference between each welfare indicator (

Qualitative Behavioural Assessment
To analyse the QBA scores, a Principal Component Analysis (PCA, correlation matrix, no rotation) was conducted separately for common land and conservation grazing ponies.A PCA was used to reduce the number of dimensions to assist in explaining the majority of variation between the individual ponies.

Test/retest reliability
To investigate assessor reliability, test/retest analysis was undertaken using Cohen's unweighted kappa test statistic and the percentage of agreement between visits for each welfare indicator (as used by Harley et al. 2021).Kappa values were interpreted according to the work of Altman (1991), where values of 0.81-1.00are considered very good, 0.61-0.80 are considered good, 0.41-0.60 are considered moderate, 0.21-0.40are considered fair, and < 0.20 are considered poor agreement.

Results
A total of 76 ponies underwent assessment, 38 individuals of each breed (Dartmoor and Exmoor), 47 on the common land and 29 within conservation grazing/rewilding programmes (Table 1).The Horse Grimace Scale (see Table 2) was not undertaken for any individual as no pony was deemed to have seriously compromised welfare at the time the welfare assessment was conducted.

Comparing common land and conservation grazing ponies
The scores for Body Condition Score (BCS), Human Disturbance, Environmental Hazards and Skin and Coat Condition were significantly lower for conservation grazing ponies compared to common land ponies (Table 3).Scores for Water Quality and Availability, and the Human Approach Test were significantly higher for common land ponies compared to conservation grazing ponies (Table There was no significant difference between the scores of the two groups for Resting Comfort, Thermal Environment and Comfort, Mobility, Mane and Tail Condition, Ocular Discharge, Nasal Discharge, Coughing, Wounds and Swelling, and Social Contact (Table 3).
There was a statistically significant difference between the scores for BCS, Water Quality and Availability, Human Disturbance, Environmental Hazards, and Human Approach Test in the four groups (CLDM, CLEX, CGDM, CGEX) (Table 5).There was no significant difference between the four groups for all other welfare indicators (Table 5).Post hoc pair-wise Wilcoxon Tests with Benjamini-Hochberg Correction are displayed in Table 5, where there were significant pair-wise comparisons for the five welfare indicators listed above.

Qualitative Behavioural Assessment
Figures 1 and 2 show the distribution of the ten descriptors along the first two principal component (PC) factors for common land and conservation grazing ponies, respectively.Many of the terms load strongly on PC1, accounting for 39.4% of the variation in the data for conservation grazing ponies and 38.2% for common land ponies.PC2 accounts for 19.7% of the variance in the data for common land ponies and 14.9% for conservation grazing ponies.PC1 for common land ponies was characterised by terms ranging from 'relaxed' to 'alert/responsive/agitated', whereas PC2 was described by 'apathetic/withdrawn' to 'friendly' (Figure 1).PC1 for conservation grazing ponies was characterised by terms ranging from 'agitated/curious/responsive/alert' to 'relaxed', and PC2 was described by 'friendly' to 'aggressive/fearful' (Figure 2).

Test/retest reliability
Some of the welfare indicators scored with 100% agreement between the two assessments and could not be tested for reliability using Cohen's unweighted kappa test statistic (Table 6).There was very good agreement (kappa estimate of 0.83-1.00)for BCS and  Animal Welfare Human Disturbance, and moderate agreement (kappa estimate of 0.43) for the Human Approach Test.There was no agreement (kappa estimate of 0) for Water Quality and Availability, Thermal Environment and Comfort, Skin and Coat Condition, Coughing and Social Contact.However, the agreement was greater than 90% for these indicators apart from Water Quality and Availability (Table 6).Environmental Hazards has a kappa estimate of -0.17 suggesting this is due to chance.

Discussion
Though there are a number of clear differences in resource-based indicators between common land and conservation grazing ponies, most animal-based indicators showed no significant variation.
Animal-based indicators scored positively and consistently suggesting that all surveyed populations were in good general health showing little or no signs of lameness, ocular or nasal discharge, coughing, sweating, shivering, wounds or swelling.Comparable findings have been identified in semi-feral Carneddau Mountain ponies (Harley et al. 2021) and horses grazing on 'parcours' (outdoor groups-housing system) in France (Dai et al. 2023), with infrequent observation of ocular and nasal discharge and coughing.These are more frequent problems in stabled horses (Hotchkiss et al. 2007;Visser et al. 2014), as respiratory issues are closely linked with indoor housing and have reduced prevalence in the open-air environment of free-ranging ponies.
Although Mane and Tail Condition were consistent across the groups, there was a significant difference in Skin and Coat Condition.Several common land ponies had patchy coats and alopecia (12.7%), which is often attributed to insect irritation causing persistent itching (Górecka & Jezierski 2007;Mullan et al. 2014;Dai et al. 2023).The welfare assessment was carried out in the summer months on warm, sunny days where insect activity is increased (Strickman et al. 1995), providing a likely explanation.Alternatively, bare patches of skin may have been a result of agonistic behaviours (bites or kicks) between mares and sub-adults to express dominance (Sigurjónsdóttir & Haraldsson 2019) or herding behaviours by stallions (Ransom et al. 2010), of which there were none present within the surveyed conservation grazing populations and this may be why coats were in better condition in those groups.
BCS differed between common land ponies and CGEX ponies, where some CGEX mares were identified as 'fat' (Henneke et al. 1983) and scored zero.Upon assessment, these mares scored two, but when the herd was revisited and after discussion with an experienced equine welfare scientist (JoH), some of the mares' scores were downgraded to zero and therefore HGS was not undertaken at the time of the assessment.As the assessment is solely observational, and there was a potential for these mares to be in foal, correct assessment of BCS was difficult.In comparison to the upland, dry heath habitats of Exmoor and Dartmoor National Park, the 'Middle Block' at Knepp Castle Estate is comprised of traditional parkland that was reseeded with grass seed and a local wild meadow seed mix in 2001 (Tree 2018).Horses released in a natural environment within a temperate climate can adapt their daily intake according to pasture availability and changes to climate, maintaining a good BCS (Souris et al. 2007) as was the case with all other assessed ponies in the study.However, in the summer, increased appetite and metabolic rate (Arnold et al. 2006) have been found to result in fat deposition when high-quality forage is available, and this is likely to be the case here.High BCS has also been identified in other 'rustic' breeds (Camargue and Merens) grazing on French 'parcours' (Dai et al. 2023).Despite the well-reported dangers of a high BCS (e.g.laminitis, colic, insulin resistance), it has been suggested that ponies demonstrate photoperiodically entrained physiological adaptations that promote survival where winter forage is sparse (Fuller et al. 2001;Rhind et al. 2002;Thiery et al. 2002;Henry 2003), and so a higher BCS in the summer months may not have negative repercussions for health or reproduction (Górecka et al. 2020), though year-round monitoring would be required to confirm if this is the case here.Furthermore, the use of the cresty neck score (Carter et al. 2009) may have been useful as it has been shown to predict insulin dysregulation in ponies (Fitzgerald et al. 2019) and therefore may have provided more robust evidence of a welfare compromise than using BCS alone.
CLDM ponies scored significantly higher than the other groups on the Human Approach Test, with most (66.6%)individuals scoring three.Birke et al. (2011) identified similar results in flight distances of naïve young Dartmoor ponies, averaging at 2.4 (± 0.54) m in the first session.Reasons for differences between the groups are difficult to determine, as the individual past experiences of each pony are unknown.Some ponies may have been handled more frequently than others, which would have reduced their flight distances over time (as shown by Birke et al. 2011) and resulted in more positive scores.Alternatively, others may have had a negative past experience (e.g.aversive handling, stressful transportation), and associate human approach with negative outcomes (Rushen et al. 1999;Fureix et al. 2012).Greater human presence in conservation grazing areas likely stems from specified public walking routes and designated parking facilities, in contrast to more remote areas in Dartmoor and Exmoor National Parks (e.g.Winsford Hill, Widecombe Hill).Conservation grazing ponies scored significantly lower on the Human Approach Test implying that they would keep a greater distance from the public.However, allowing a closer human approach scored positively in the welfare protocol, despite numerous campaigns to deter the public from feeding or touching free-ranging ponies (e.g.Dartmoor National Park Authority 2017).A close human approach could negatively impact ponies' welfare as it increases the chances of them being fed or touched, though it may be beneficial if an issue is identified and requires treatment.
Resource-based indicators showed greater variability during revisits compared to animal-based indicators.Despite the variability, resource-based indicators implied that all surveyed populations were in the presence of conspecifics and had access to a suitable resting area with both shade and shelter.Access to shelter is crucial during inclement weather (Tyler 1972;Duncan 1985;Autio & Heiskanen 2005), aiding thermoregulation and prevention of the development of other welfare issues (e.g.shivering, sweating).These indicators relied upon surveying the area within a 500-m circular radius of the observed pony (Harley et al. 2021) and were more inconsistent between visits due to differing pony locality.For example, the absence of a water source scored one, implying that the pony may not have access to water.However, nearby water sources may not have been visible or situated differently from where the herd was throughout the assessment, explaining why water quality and availability had a much lower percentage agreement in the test/ retest in comparison to the other indicators.Surveying the entire grazing area for water sources and environmental hazards would have reduced subjectivity.An animal's affective state moves along a scale of negative and positive valence, influenced by its environment and experience (Mendl et al. 2010).Qualitative Behavioural Assessment is a novel, whole-animal method to evaluate an animal's emotional state and determine its welfare and response to environmental conditions (Wemelsfelder 2007).PC1 in both common land and conservation grazing ponies reflects activity and arousal levels (Figures 1 and 2), although 'relaxed' is on opposing ends of the axis.Mullan et al. (2014) observed similar findings in tethered and free-ranging horses on public grazing land in South Wales, where PC1 indicated arousal level.PC2 differs between the two groups, where for common land ponies it explains sociability, but for conservation grazing ponies it explains the mood and subjective experience, akin to Mullan et al. (2014).QBA improves understanding of individual affective states and has been shown to correlate with other quantitative indicators (Dalla Costa et al. 2014b).Statistical analysis is required for QBA interpretation (Dalla Costa et al. 2014b), which may reduce its viability if the welfare assessment were to be utilised by pony keepers and stock-person managers.In an app developed by the SRUC (2020) to help perform QBAs, charts are automatically displayed for emotional well-being and facilitate comparison with previous assessments, enhancing accessibility for use by key stakeholders in the future.
Welfare was assessed in the early summer and is only representative of the ponies' welfare at that time.While sufficient for interpopulation comparisons, year-round assessment is more beneficial to effectively monitor welfare, as free-ranging environments are heavily characterised by significant seasonal variation (Harley et al. 2021).Seasons have been shown to significantly affect BCS and the skin condition of extensively grazing Swedish Gotland ponies (Viksten et al. 2023).Utilising a similar methodology to that of Viksten et al. (2023), assessing welfare every four weeks yearround would enable cross-season comparisons and a better understanding of how each individual adapts to environmental changes (Sterling 2004).The assessment was conducted by one assessor and although the welfare protocol has been previously piloted and tested for reliability (Harley et al. 2021), comparing the scores of multiple assessors would have increased reliability.However, re-tests showed a high percentage agreement (> 60%), except for one welfare indicator.Cohen's unweighted kappa test lacks value and can be misleading when no data variation exists, as the percentage of agreement between the two visits was 100%.The individual welfare state was determined solely from the indicators within the protocol, and being observational, some issues may pass undetected.However, this was the only reasonable approach to take for studying these populations within the given time-frame.Furthermore, the assessment of free-ranging ponies in the field presents the challenge of optimal assessor positioning and distance without disturbing the herd.Sometimes assessment ceased if the herd moved into an unsuitable location (e.g.low, dense trees), reducing sample sizes where all individuals were not able to be sampled.

Animal welfare implications
The information gathered in this study has provided insight into the welfare of extensively grazing Exmoor and Dartmoor ponies on areas of common land within the respectively named national parks and those enlisted for the benefits of their grazing as part of conservation grazing and rewilding programmes.There is evidence to suggest that conservation grazing locations should be selected carefully and be similar to the ponies' source habitat; ponies should be monitored closely for the first few weeks when they arrive as conservation grazing areas may have greater levels of human disturbance and increased food availability that could cause health issues (e.g.obesity, laminitis) which would impact welfare.This study also highlights the feasibility of an observational assessment for use by pony keepers and grazing managers to monitor welfare at an individual level and avoid unnecessary stress to ponies by rounding them up ('drifting'), as well as allowing for more targeted treatment of individuals with issues which will improve herd level welfare.

Conclusion
Overall, the welfare of Exmoor and Dartmoor ponies grazing on the common land and in conservation grazing/rewilding programmes scores largely similarly, with all ponies assessed as being sound, within a social group and with sufficient access to food and shelter.The constraints of the welfare assessment protocol may have impacted the scores for some resource-based indicators, in particular water quality and availability but with slight adjustment these then may be more representative of the ponies' grazing area.This study highlights the importance and encourages the monitoring of the welfare of herds of free-ranging native ponies across the UK into the future.It implies that research into the welfare of other freeranging populations is necessary to secure the future of Exmoor and Dartmoor ponies on the moors which will allow for them to exhibit their benefits as part of conservation grazing and rewilding programmes.

Figure 1 .
Figure 1.Loadings of the ten Qualitative Behavioural Assessment descriptors along the first two Principal Component Analysis factors (PC1, PC2) for common land (n = 47) ponies.

Figure 2 .
Figure 2. Loadings of Qualitative Behavioural Assessment descriptors along the first two Principal Component Analysis factors (PC1, PC2) for conservation grazing ponies (n = 29).

Table 1 .
Details of free-ranging native pony herds including location, breed, sexes, ages, and numbers of ponies assessed

Table 2 .
Welfare assessment protocol (adapted from Harley et al., 2021) with details of animal-(AB) and resource-based (RB) indicators and scoring categories for each welfare indicator Thermal Environment (RB) (access to shelter/shade, e.g.stone wall, trees, hedges) and Comfort (AB) (shivering or sweating) -No access to shelter or shade and/ or is shivering or sweating.

Table 3 .
Harley et al. 2021for common land (n = 47) and conservation grazing ponies (n = 29), with the results of Mann Whitney U tests between the two groups for each of the animal-and resource-based welfare indicators that make up the welfare assessment (adapted fromHarley et al. 2021).Significant differences between the two groups are represented with bold P-values

Table 5 .
Kruskal-Wallis rank-sum test results between Exmoor common land (CLEX, n = 23), Dartmoor common land (CLDM, n = 24), Exmoor conservation grazing (CGEX, n = 15) and Dartmoor conservation grazing (CGDM, n = 14) ponies, with post hoc pair-wise Wilcoxon tests to determine the significant differences between the four groups for each welfare indicator Significant differences between the groups are represented with bold P values.Post hoc test P-values with "-" present indicate that a comparison between those groups was not available or applicable *N/A indicates that the statistical test could not be performed due to no data variation for that indicator and therefore post hoc pair-wise Wilcoxon tests could not be carried out.

Table 6 .
Cohen's unweighted kappa test statistic results (Kappa estimates, k) and the percentage agreement for each welfare indicator between the two assessments to measure the test/retest reliability *N/A indicates that the statistical test could not be performed due to no data variation for that indicator.